Investigating the formation and evolution of coarse-grained deposits in modern lakes and the relevant controlling conditions is indispensable to the prediction of reservoir sandbodies,disaster prediction,and limnological research.The source-to-sink system of coarse-grained deposits in Lake Chenghai,a deep,scarped Late Quaternary lake,was investigated in this study based on 62 outcrops,Advanced Land Observing Satellite(ALOS)digital elevation model(DEM)data,and regional geological survey data.The findings include the following:(1)the source areas of coarse-grained deposits in Lake Chenghai were lithologically classified into carbonate source areas,basaltic source areas and siliciclastic source areas,and were geomorphically categorized as scarp type or confluence type.Subaqueous colluvial aprons have formed downstream of the carbonate source areas and scarp-type basaltic source areas,while Gilbert-type deltas have formed down-stream of siliciclastic source areas and confluence-type basaltic source areas.(2)The formation and evolution of coarse-grained deposits are controlled by the sediment flux that evolves in synchrony with the geomorphic evolution of the source areas and the sink regimes.Scarps represent the initial landform of the source areas.Source material rolls off or slides down scarps or forms small-scale debris flows before entering the lake.The source material initially formed subaqueous colluvial apron(synonymous with subaqueous fans)where suffi-cient space was present to accommodate sediments and the basement angle exceeded than the natural angle of repose.As weathering and denudation have progressed,the initial scarps have transformed into confluence-type slopes,and the source material has formed medium-and large-scale debris flows that have entered the lake,resulting in an increase in sediment flux.Consequently,the subaqueous colluvial aprons have rapidly grown and developed subaerial deposits,which have evolved into larger-scale Gilbert-type deltas that overlie the initial aprons.(3)The morphology and distribution of coarse-grained deposits vary in response to differ-ences in quantity and composition of materials from different source areas,which resulting from different rates of weathering and denudation and different sediment input regimes.Firstly,the size and surface slope angle of a subaqueous colluvial apron from a carbonate source are smaller than those of a subaqueous colluvial apron of basaltic origin.Secondly,a Gilbert-type delta from a basaltic source features a greater slope angle and a thicker topset than does a Gilbert-type delta of siliciclastic origin,and the latter exhibits a longer foreset and a thicker bottomset than in the former.Thirdly,the sizes of subaqueous colluvial aprons are not strongly correlated with the sizes of the source areas,while the sizes of Gilbert-type deltas are.

Dao-Tao Dong;Long-Wei Qiu;Peng-Jie Ma;Guo-Ding Yu;Yu-Zhe Wang;Shi-Bo Zhou;Bao-Liang Yang;He-Qing Huang;Yong-Qiang Yang;Xin Li

School of Geosciences,China University of Petroleum(East China),Qingdao 266580,Shandong Province,China;SINOPEC Geophysical Research Institute,Nanjing 211103,Jiangsu Province,China;CCCC Second Highway Consultants Co.Ltd.,Wuhan 430056,Hubei Province,China

古地理学报（英文版）

[1]Dao-Tao Dong;Long-Wei Qiu;Peng-Jie Ma;Guo-Ding Yu;Yu-Zhe Wang;Shi-Bo Zhou;Bao-Liang Yang;He-Qing Huang;Yong-Qiang Yang;Xin Li-.Initiation and evolution of coarse-grained deposits in the Late Quaternary Lake Chenghai source-to-sink system:From subaqueous colluvial apron(subaqueous fans)to Gilbert-type delta)[J].古地理学报（英文版）,2022(02):194-221

Chenghai,sandbodies,limnological,scarped,lithologically,geomorphically,Subaqueous,aprons,deltas,Scarps,scarps,subaerial,overlie,topset,foreset,bottomset

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